#include "acl_stdafx.hpp"
#ifndef ACL_PREPARE_COMPILE
#include "stdlib/log.hpp"
#include "stream/aio_timer_callback.hpp"
#include "stream/aio_handle.hpp"
#endif
#include "aio_timer_delay_free.hpp"

namespace acl
{

aio_handle::aio_handle(aio_handle_type engine_type /* = ENGINE_SELECT */,
	unsigned int nMsg /* = 0 */)
: stop_(false)
, nstream_(0)
, engine_type_(engine_type)
{
	int   event_type;

	if (engine_type == ENGINE_SELECT)
		event_type = ACL_EVENT_SELECT;
	else if (engine_type == ENGINE_POLL)
		event_type = ACL_EVENT_POLL;
	else if (engine_type == ENGINE_KERNEL)
		event_type = ACL_EVENT_KERNEL;
#ifdef ACL_WINDOWS
	else if (engine_type == ENGINE_WINMSG)
		event_type = ACL_EVENT_WMSG;
#endif
	else
	{
		event_type = ENGINE_SELECT;  // xxx: just avoid gcc warning
		acl_assert(0);
	}

	aio_ = acl_aio_create2(event_type, nMsg);
	inner_alloc_ = true;

	// 创建延迟关闭的定时器对象
	delay_free_timer_ = NEW aio_timer_delay_free(*this);

	// 在异步引擎对象的生命周期内锁定该延迟释放定时
	// 器，以防止异步引擎自动销毁该定时器
	delay_free_timer_->set_locked();
}

aio_handle::aio_handle(ACL_AIO* aio)
	: aio_(aio)
	, stop_(false)
	, nstream_(0)
{
	acl_assert(aio_);
	int event_type = acl_aio_event_mode(aio);

	if (event_type == ACL_EVENT_SELECT)
		engine_type_ = ENGINE_SELECT;
	else if (event_type == ACL_EVENT_POLL)
		engine_type_ = ENGINE_POLL;
	else if (event_type == ACL_EVENT_KERNEL)
		engine_type_ = ENGINE_KERNEL;
	else if (event_type == ACL_EVENT_WMSG)
		engine_type_ = ENGINE_WINMSG;
	else
		acl_assert(0);

	inner_alloc_ = false;

	// 创建延迟关闭的定时器对象
	delay_free_timer_ = NEW aio_timer_delay_free(*this);
	// 在异步引擎对象的生命周期内锁定该延迟释放定时
	// 器，以防止异步引擎自动销毁该定时器
	delay_free_timer_->set_locked();
}

aio_handle::~aio_handle()
{
	if (inner_alloc_)
		acl_aio_free(aio_);

	delay_free_timer_->unset_locked();
	delete delay_free_timer_;
}

void aio_handle::keep_read(bool onoff)
{
	acl_aio_set_keep_read(aio_, onoff ? 1 : 0);
}

bool aio_handle::keep_read() const
{
	return acl_aio_get_keep_read(aio_) == 0 ? false : true;
}

acl_int64 aio_handle::set_timer(aio_timer_callback* callback,
	acl_int64 delay, unsigned int id /* = 0 */)
{
	acl_assert(aio_);
	callback->handle_ = this;
	delay = callback->set_task(id, delay);
	return acl_aio_request_timer(aio_,
		(void (*)(int, ACL_EVENT*, void*)) on_timer_callback,
		callback, delay < 0 ? 0 : delay,
		callback->keep_ ? 1 : 0);
}

void aio_handle::on_timer_callback(int, ACL_EVENT*,
	aio_timer_callback *callback)
{
	acl_assert(callback);
	acl_assert(callback->handle_);
	aio_handle* handle = callback->handle_;

	// 触发定时器中的所有定时任务
	acl_int64 next_delay = callback->trigger();

	// 如果定时器中的任务为空或未设置定时器的重复使用，则删除定时器

	if (callback->empty())
	{
		logger("timer empty, delete it");
		handle->del_timer(callback);
		return;
	}

	if (!callback->keep_timer())
	{
		logger("timer no keep delete it");
		handle->del_timer(callback);
		return;
	}

	// 如果允许重复使用定时器且定时器中的任务非空，则再次设置该定时器

	//  需要重置定时器的到达时间截
	acl_aio_request_timer(handle->aio_,
		(void (*)(int, ACL_EVENT*, void*)) on_timer_callback,
		callback, next_delay < 0 ? 0 : next_delay,
		callback->keep_timer() ? 1 : 0);
}

acl_int64 aio_handle::del_timer(aio_timer_callback* callback, unsigned int id)
{
	acl_assert(aio_);
	acl_int64 next_delay = callback->del_task(id);

	// 如果定时器中的任务为空，则删除该定时器
	if (callback->empty())
		return del_timer(callback);

	return acl_aio_request_timer(callback->handle_->aio_,
		(void (*)(int, ACL_EVENT*, void*)) on_timer_callback,
		callback, next_delay < 0 ? 0 : next_delay,
		callback->keep_timer() ? 1 : 0);
}

acl_int64 aio_handle::del_timer(aio_timer_callback* callback)
{
	acl_assert(aio_);
	acl_int64 next_delay = acl_aio_cancel_timer(aio_,
		(void (*)(int, ACL_EVENT*, void*)) on_timer_callback,
		callback);
	callback->clear();
	destroy_timer(callback);

	return next_delay;
}

void aio_handle::delay_free(aio_delay_free* callback)
{
	// 添加延迟释放定时器的定时任务
	if (delay_free_timer_->add(callback))
		set_timer(delay_free_timer_, 100000, 0);
}

void aio_handle::destroy_timer(aio_timer_callback* callback)
{
	delay_free_timer_->del(callback);

	// 如果该定时器已经在 trigger 中被锁定，则只需要
	// 设置在解锁后需要将其销毁的标识即可，由其本身
	// 自行销毁
	if (callback->locked())
		callback->destroy_on_unlock_ = true;

	// 直接销毁未锁定的定时器
	else
		callback->destroy();
}

ACL_AIO* aio_handle::get_handle() const
{
	return aio_;
}

aio_handle_type aio_handle::get_engine_type() const
{
	return engine_type_;
}

void aio_handle::set_delay_sec(int n)
{
	acl_aio_set_delay_sec(aio_, n);
}

void aio_handle::set_delay_usec(int n)
{
	acl_aio_set_delay_usec(aio_, n);
}

void aio_handle::set_check_inter(int n)
{
	acl_aio_set_check_inter(aio_, n);
}

void aio_handle::set_rbuf_size(int n)
{
	acl_aio_set_rbuf_size(aio_, n);
}

bool aio_handle::check()
{
	acl_aio_loop(aio_);
	if (stop_)
		return false;
	return true;
}

int aio_handle::last_nready() const
{
	return acl_aio_last_nready(aio_);
}

void aio_handle::stop()
{
	stop_ = true;
}

void aio_handle::reset()
{
	stop_ = false;
}

void aio_handle::increase()
{
	nstream_++;
	on_increase();
}

void aio_handle::decrease()
{
	nstream_--;
	acl_assert(nstream_ >= 0);
	on_decrease();
}

int aio_handle::length() const
{
	return nstream_;
}

}  // namespace acl
